抗坏血酸氧化还原在铁毒性耐受性中的作用

IF 6.1 2区 生物学 Q1 PLANT SCIENCES Plant Physiology and Biochemistry Pub Date : 2024-08-13 DOI:10.1016/j.plaphy.2024.109045
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引用次数: 0

摘要

铁(Fe)毒性是低地水稻生产中的主要非生物胁迫。由于铁毒性耐受性的遗传结构复杂,而且基因型与环境之间存在强烈的相互作用,培育耐受性品种已被证明具有挑战性。在我们之前的工作中,我们发现抗坏血酸氧化还原酶(DHAR)和抗坏血酸氧化酶(AO)的活性介导的抗坏血酸氧化还原调节有助于籼稻基因型在不同环境下的高耐受性。为了探索这一机制在其他水稻基因型中是否常见,我们选择了在铁毒性条件下具有不同胁迫症状的 10 个基因型,以研究 DHAR 和 AO 在调节铁毒性耐受性中的作用。在我们测试的十个基因型中,我们发现在铁毒性和对照条件下生长的植株中,DHAR活性与胁迫症状之间存在显著的正相关,这表明抗坏血酸氧化还原调控与铁毒性耐受性之间存在普遍联系。利用暴露于 1000 mg/L Fe2+ 的植物叶片图像的 RGB 信号,我们评估了 36 种不同的颜色指数来量化胁迫症状。我们的研究结果表明,在筛选水稻种质和培育耐铁毒性栽培品种的过程中,DHAR活性有可能被用作一种生物标记。
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The role of ascorbate redox turnover in iron toxicity tolerance

Iron (Fe) toxicity is a major abiotic stress in lowland rice production. Breeding tolerant varieties has proven challenging due to the complex genetic architecture of Fe toxicity tolerance and the strong genotype-by-environment interactions. Additionally, conventional methods for phenotyping visible stress symptoms are often inaccurate, inconsistent, and lack reproducibility.

In our previous work, we identified that ascorbate redox regulation, mediated by the activities of dehydroascorbate reductase (DHAR) and ascorbate oxidase (AO), contributed to high tolerance in an indica rice genotype across various environments. To explore whether this mechanism is common among other rice genotypes, we selected ten genotypes with contrasting stress symptoms under Fe-toxic conditions to examine the roles of DHAR and AO in regulating Fe toxicity tolerance. Additionally, we aimed to develop objective and accurate image-based phenotyping methods to replace the traditional leaf bronzing scoring method.

Among the ten genotypes we tested, we found significant positive correlations between DHAR activity and stress symptoms in plants grown under both Fe toxicity and control conditions, suggesting a general link between ascorbate redox regulation and Fe toxicity tolerance. Using RGB signals from leaf images of plants exposed to 1000 mg/L Fe2+, we evaluated 36 different color indices to quantify stress symptoms. We identified the normalized green‒red difference index as most significant in quantifying stress symptoms under Fe toxicity conditions.

Our findings suggest that DHAR activity could be potentially employed as a biomarker in the screening of rice germplasms and breeding tolerant cultivars to Fe toxicity.

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来源期刊
Plant Physiology and Biochemistry
Plant Physiology and Biochemistry 生物-植物科学
CiteScore
11.10
自引率
3.10%
发文量
410
审稿时长
33 days
期刊介绍: Plant Physiology and Biochemistry publishes original theoretical, experimental and technical contributions in the various fields of plant physiology (biochemistry, physiology, structure, genetics, plant-microbe interactions, etc.) at diverse levels of integration (molecular, subcellular, cellular, organ, whole plant, environmental). Opinions expressed in the journal are the sole responsibility of the authors and publication does not imply the editors'' agreement. Manuscripts describing molecular-genetic and/or gene expression data that are not integrated with biochemical analysis and/or actual measurements of plant physiological processes are not suitable for PPB. Also "Omics" studies (transcriptomics, proteomics, metabolomics, etc.) reporting descriptive analysis without an element of functional validation assays, will not be considered. Similarly, applied agronomic or phytochemical studies that generate no new, fundamental insights in plant physiological and/or biochemical processes are not suitable for publication in PPB. Plant Physiology and Biochemistry publishes several types of articles: Reviews, Papers and Short Papers. Articles for Reviews are either invited by the editor or proposed by the authors for the editor''s prior agreement. Reviews should not exceed 40 typewritten pages and Short Papers no more than approximately 8 typewritten pages. The fundamental character of Plant Physiology and Biochemistry remains that of a journal for original results.
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